| Abstract: | Synthetic collagen peptides containing larger numbers of Gly‐Pro‐Hyp repeats are difficult to purify by standard chromatographic procedures. Therefore, efficient strategies are required for the synthesis of higher molecular weight collagen‐type peptides. Applying the Fmoc/tBu chemistry, a comparative analysis of the standard stepwise chain elongation procedure on solid support with the procedure based on the use of the synthons Fmoc‐Gly‐Pro‐Hyp(tBu)‐OH and Fmoc‐Pro‐Hyp‐Gly‐OH was performed. The crude products resulting from the stepwise elongation procedure and from the use of Fmoc‐Gly‐Pro‐Hyp(tBu)‐OH clearly revealed large amounts of microheterogeneities that result from incomplete imino acid acylation as well as from diketopiperazine formation with cleavage of Gly‐Pro units from the growing peptide chain. Conversely, by the use of the Fmoc‐Pro‐Hyp‐Gly‐OH synthon, the quality of the crude products was significantly improved; moreover, protection of the Hyp side chain hydroxyl function is not required using the Fmoc/tBu strategy. With this optimized synthetic procedure, relatively large collagen‐type peptides were obtained in satisfactory yields as highly homogeneous compounds. Copyright © 1999 European Peptide Society and John Wiley & Sons, Ltd. |
